// bdlt_datetimetz.h                                                  -*-C++-*-
#ifndef INCLUDED_BDLT_DATETIMETZ
#define INCLUDED_BDLT_DATETIMETZ

#include <bsls_ident.h>
BSLS_IDENT("$Id: $")

//@PURPOSE: Provide a representation of a date and time with time zone offset.
//
//@CLASSES:
//  bdlt::DatetimeTz: local-datetime value with time zone offset from UTC
//
//@SEE_ALSO: bdlt_datetime
//
//@DESCRIPTION: This component provides a single value-semantic class,
// `bdlt::DatetimeTz`, that represents a datetime value in a particular time
// zone.  Each `bdlt::DatetimeTz` object contains a time zone offset from UTC
// (in minutes) and a `bdlt::Datetime` value in that time zone.  For logical
// consistency, the datetime value and offset should correspond to a
// geographically valid time zone, but such consistency is the user's
// responsibility.  This component does not enforce logical constraints on any
// values.
//
///Caveats on Time Zone Support
///----------------------------
// A `bdlt::DatetimeTz` value is intended to be interpreted as a value in a
// local time zone, along with the offset of that value from UTC.  However,
// there are some problems with this simple interpretation.  First of all, the
// offset value may not correspond to any time zone that has ever existed.  For
// example, the offset value could be set to one minute, or to 1,234 minutes.
// The meaning of the resulting "local datetime" value is always clear, but the
// local datetime might not correspond to any geographical or historical time
// zone.
//
// The second problem is more subtle.  A given offset from UTC might be "valid"
// in that it corresponds to a real time zone, but the actual datetime value
// might not exist in that time zone.  To make matters worse, a "valid" offset
// may not (indeed, rarely will) specify one time zone uniquely.  Moreover, the
// datetime value might be valid in one time zone corresponding to a given
// offset, and not in another time zone.
//
// For these reasons (and others), this component cannot and does not perform
// any validation relating to time zones or offsets.  The user must take care
// to honor the "local datetime" contract of this component.
//
///ISO Standard Text Representation
///--------------------------------
// A common standard text representation of a date and time value is described
// by ISO 8601.  BDE provides the `bdlt_iso8601util` component for conversion
// to and from the standard ISO8601 format.
//
///Usage
///-----
// This section illustrates intended use of this component.
//
///Example 1: Basic `bdlt::DatetimeTz` Usage
///- - - - - - - - - - - - - - - - - - - - -
// This example demonstrates how to create and use a `bdlt::DatetimeTz` object.
//
// First, create an object `dt1` having the default value, and then verify that
// it contains an offset of 0, implying that the object represents a date and
// time in the UTC time zone, and the value of the datetime is the same as that
// of a default constructed `bdlt::Datetime` object:
// ```
// bdlt::DatetimeTz dt1;
// assert(0                == dt1.offset());
// assert(bdlt::Datetime() == dt1.localDatetime());
// ```
// Then, set `dt1` to the value 12:00 noon (12:00:00.000) on 12/31/2005 in the
// EST time zone (UTC-5):
// ```
// bdlt::Datetime datetime1(2005, 12, 31, 12, 0, 0, 0);
// bdlt::Datetime datetime2(datetime1);
// int            offset1 = -5 * 60;
//
// dt1.setDatetimeTz(datetime1, offset1);
// assert(offset1             == dt1.offset());
// assert(dt1.localDatetime() != dt1.utcDatetime());
// assert(datetime1           == dt1.localDatetime());
// assert(datetime2           != dt1.utcDatetime());
//
// datetime2.addMinutes(-offset1);
// assert(datetime2 == dt1.utcDatetime());
// ```
// Next, create `dt2` as a copy of `dt1`:
// ```
// bdlt::DatetimeTz dt2(dt1);
// assert(offset1   == dt2.offset());
// assert(datetime1 == dt2.localDatetime());
// assert(datetime2 == dt2.utcDatetime());
// ```
// Now, create a third object, `dt3`, representing the time 10:33:25.000 on
// 01/01/2001 in the PST time zone (UTC-8):
// ```
// bdlt::Datetime datetime3(2001, 1, 1, 10, 33, 25, 0);
// bdlt::Datetime datetime4(datetime3);
// int            offset2 = -8 * 60;
//
// bdlt::DatetimeTz dt3(datetime3, offset2);
// assert(offset2             == dt3.offset());
// assert(dt3.localDatetime() != dt3.utcDatetime());
// assert(datetime3           == dt3.localDatetime());
// assert(datetime4           != dt3.utcDatetime());
//
// datetime4.addMinutes(-offset2);
// assert(datetime4 == dt3.utcDatetime());
// ```
// Finally, stream the values of `dt1`, `dt2`, and `dt3` to `stdout`:
// ```
// bsl::cout << dt1 << bsl::endl
//           << dt2 << bsl::endl
//           << dt3 << bsl::endl;
// ```
// The streaming operator produces the following output on `stdout`:
// ```
// 31DEC2005_12:00:00.000-0500
// 31DEC2005_12:00:00.000-0500
// 01JAN2001_10:33:25.000-0800
// ```
//
///Example 2: Delivery Estimation System
///- - - - - - - - - - - - - - - - - - -
// Let us suppose that we are implementing a delivery estimation system for a
// shipping company.  The system provides estimated delivery dates and times of
// client shipments.  This information is provided in the local time zone and
// is represented as a `bdlt::DatetimeTz` object.  Below is the definition for
// a struct that returns the estimated delivery date.
// ```
//                      // =====================
//                      // struct DeliverySystem
//                      // =====================
//
// /// This struct provides a function that returns the estimated delivery
// /// date and time for a particular shipment.
// struct DeliverySystem {
//
//     // PRIVATE CLASS METHODS
//
//     /// Return the current UTC date and time.
//     static bdlt::Datetime getCurrentUTCDatetime();
//
//   public:
//     // TYPES
//
//     /// This enumeration provides an identifier for the various cities.
//     enum City {
//
//         e_CHICAGO = 0,
//         e_DUBAI,
//         e_NEW_YORK,
//         e_LONDON,
//         e_LOS_ANGELES
//     };
//
//     // CLASS METHODS
//
//     /// Return the estimated delivery date and time, in local time, for
//     /// a shipment being sent to the specified `city`.
//     static bdlt::DatetimeTz getEstimatedDeliveryDatetime(City city);
// };
// ```
// All the relevant data used for delivery estimation is stored in a lookup
// table as shown below:
// ```
// const int k_MINUTES_PER_HOUR = 60;
//
// static const struct {
//     int d_offset;         // time zone offset from UTC (in minutes)
//     int d_deliveryTime;   // delivery time (in minutes)
// } DATA[] = {
//  //    Offset                   DeliveryTime
//  //    =======================  =======================
//  {     -6 * k_MINUTES_PER_HOUR, 10 * k_MINUTES_PER_HOUR  },  // Chicago
//  {      3 * k_MINUTES_PER_HOUR, 72 * k_MINUTES_PER_HOUR  },  // Dubai
//  {     -5 * k_MINUTES_PER_HOUR,      k_MINUTES_PER_HOUR  },  // New York
//  {          k_MINUTES_PER_HOUR, 36 * k_MINUTES_PER_HOUR  },  // London
//  {     -8 * k_MINUTES_PER_HOUR, 24 * k_MINUTES_PER_HOUR  },  // Los Angeles
// };
// ```
// And here are the function definitions:
// ```
//                      // ---------------------
//                      // struct DeliverySystem
//                      // ---------------------
//
// // PRIVATE CLASS METHODS
// bdlt::Datetime DeliverySystem::getCurrentUTCDatetime()
// {
//     // Return a fixed datetime so that output is known a priori.
//     return bdlt::Datetime(2014, 10, 17, 14, 48, 56);
// }
//
// // CLASS METHODS
// bdlt::DatetimeTz DeliverySystem::getEstimatedDeliveryDatetime(City city)
// {
//     bdlt::Datetime localDatetime(getCurrentUTCDatetime());
//     localDatetime.addMinutes(DATA[city].d_offset
//                            + DATA[city].d_deliveryTime);
//     return bdlt::DatetimeTz(localDatetime, DATA[city].d_offset);
// }
// ```
// When we print out the delivery times:
// ```
// bsl::cout << "Estimated Delivery Time in Chicago:     "
//           << DeliverySystem::getEstimatedDeliveryDatetime(
//                                                  DeliverySystem::e_CHICAGO)
//           << bsl::endl;
// bsl::cout << "Estimated Delivery Time in Dubai:       "
//           << DeliverySystem::getEstimatedDeliveryDatetime(
//                                                    DeliverySystem::e_DUBAI)
//           << bsl::endl;
// bsl::cout << "Estimated Delivery Time in New York:    "
//           << DeliverySystem::getEstimatedDeliveryDatetime(
//                                                 DeliverySystem::e_NEW_YORK)
//           << bsl::endl;
// bsl::cout << "Estimated Delivery Time in London:      "
//           << DeliverySystem::getEstimatedDeliveryDatetime(
//                                                   DeliverySystem::e_LONDON)
//           << bsl::endl;
// bsl::cout << "Estimated Delivery Time in Los Angeles: "
//           << DeliverySystem::getEstimatedDeliveryDatetime(
//                                              DeliverySystem::e_LOS_ANGELES)
//           << bsl::endl;
// ```
// We get the following results:
// ```
// Estimated Delivery Time in Chicago:     17OCT2014_18:48:56.000-0600
// Estimated Delivery Time in Dubai:       20OCT2014_17:48:56.000+0300
// Estimated Delivery Time in New York:    17OCT2014_10:48:56.000-0500
// Estimated Delivery Time in London:      19OCT2014_03:48:56.000+0100
// Estimated Delivery Time in Los Angeles: 18OCT2014_06:48:56.000-0800
// ```

#include <bdlscm_version.h>

#include <bdlt_datetime.h>
#include <bdlt_datetz.h>
#include <bdlt_time.h>
#include <bdlt_timetz.h>

#include <bslh_hash.h>

#include <bslmf_integralconstant.h>
#include <bslmf_isbitwisecopyable.h>

#include <bsls_annotation.h>
#include <bsls_assert.h>

#include <bsl_iosfwd.h>

namespace BloombergLP {
namespace bdlt {

                             // ================
                             // class DatetimeTz
                             // ================

/// This value-semantic class describes a datetime value in a particular
/// time zone, which is indicated using an offset from UTC (in minutes).
class DatetimeTz {

    // PRIVATE TYPES

    /// This enumeration specifies the minimum and maximum time zone offset
    /// values.
    enum ValidOffsetRange {
        k_MAX_OFFSET =  1440,
        k_MIN_OFFSET = -1440
    };

    // DATA
    Datetime d_localDatetime;  // datetime value in timezone specified by
                               // `d_offset`

    int      d_offset;         // offset from UTC (in minutes)

  public:
    // CLASS METHODS

    /// Return `true` if the specified `localDatetime` and the specified
    /// time zone `offset` represent a valid `DatetimeTz` value, and `false`
    /// otherwise.  A `localDatetime` and `offset` represent a valid
    /// `DatetimeTz` value if either `bdlt::Time() == localDatetime.time()`
    /// and `0 == offset`, or `bdlt::Time() != localDatetime.time()` and
    /// `offset` is in the range `( -1440 .. 1440 )`.  Note that a `true`
    /// result from this function does not guarantee that `offset`
    /// corresponds to any geographical or historical time zone.  Also note
    /// that a `true` result from this function does not guarantee that
    /// `localDatetime` itself is a valid `Datetime` object.
    static bool isValid(const Datetime& localDatetime, int offset);

                                  // Aspects

    /// Return the maximum valid BDEX format version, as indicated by the
    /// specified `versionSelector`, to be passed to the `bdexStreamOut`
    /// method.  Note that it is highly recommended that `versionSelector`
    /// be formatted as "YYYYMMDD", a date representation.  Also note that
    /// `versionSelector` should be a *compile*-time-chosen value that
    /// selects a format version supported by both externalizer and
    /// unexternalizer.  See the `bslx` package-level documentation for more
    /// information on BDEX streaming of value-semantic types and
    /// containers.
    static int maxSupportedBdexVersion(int versionSelector);

    // CREATORS

    /// Create a `DatetimeTz` object having the (default) attribute values:
    /// ```
    /// localDatetime() == bdlt::Datetime()
    /// offset()        == 0
    /// ```
    DatetimeTz();

    /// Create a `DatetimeTz` object having a local datetime value equal to
    /// the specified `localDatetime` and a time zone offset value from UTC
    /// equal to the specified `offset` (in minutes).  The behavior is
    /// undefined unless all of the specified values are within their valid
    /// ranges (see `isValid`).  Note that this method provides no
    /// validation, and it is the user's responsibility to ensure that
    /// `offset` represents a valid time zone and that `localDatetime`
    /// represents a valid datetime in that time zone.
    DatetimeTz(const Datetime& localDatetime, int offset);

    /// Create a `DatetimeTz` object having the same value as the specified
    /// `original` object.
    DatetimeTz(const DatetimeTz& original);

    /// Destroy this object.
    ~DatetimeTz();

    // MANIPULATORS

    /// Assign to this object the value of the specified `rhs` object, and
    /// return a reference providing modifiable access to this object.
    DatetimeTz& operator=(const DatetimeTz& rhs);

    /// Set the local datetime and the time zone offset of this object to
    /// the specified `localDatetime` and `offset` values respectively.  The
    /// behavior is undefined unless all of the specified values are within
    /// their valid ranges (see `isValid`).  Note that this method provides
    /// no validation, and it is the user's responsibility to assure the
    /// consistency of the resulting value.
    void setDatetimeTz(const Datetime& localDatetime, int offset);

    /// If the specified `localDatetime` and `offset` represent a valid
    /// `DatetimeTz` value (see `isValid`), set the local datetime and the
    /// time zone offset of this object to the `localDatetime` and `offset`
    /// values respectively and return 0, leave this object unmodified and
    /// return a non-zero value otherwise.
    int setDatetimeTzIfValid(const Datetime& localDatetime, int offset);

                                  // Aspects

    /// Assign to this object the value read from the specified input
    /// `stream` using the specified `version` format, and return a
    /// reference to `stream`.  If `stream` is initially invalid, this
    /// operation has no effect.  If `version` is not supported, this object
    /// is unaltered and `stream` is invalidated, but otherwise unmodified.
    /// If `version` is supported but `stream` becomes invalid during this
    /// operation, this object has an undefined, but valid, state.  Note
    /// that no version is read from `stream`.  See the `bslx` package-level
    /// documentation for more information on BDEX streaming of
    /// value-semantic types and containers.
    template <class STREAM>
    STREAM& bdexStreamIn(STREAM& stream, int version);

    // ACCESSORS

    /// Return a `DateTz` object having the value of the local date and
    /// offset represented by this object.
    DateTz dateTz() const;

    /// Return a `Datetime` object having the value of the local datetime
    /// represented by this object.  Note that the `Datetime` value returned
    /// is the current value stored in this object and may be different from
    /// the local datetime of the system.
    Datetime localDatetime() const;

    /// Return the time zone offset of this `DatetimeTz` object.  Note that
    /// the offset is in minutes from UTC.
    int offset() const;

    /// Return a `TimeTz` object having the value of the local time and
    /// offset represented by this object.
    TimeTz timeTz() const;

    /// Return a `Datetime` object having the value of the UTC datetime
    /// represented by this object.  Note that if `0 != offset()`, the
    /// returned value is equal to `localDatetime()` minus `offset()`
    /// minutes, and `localDatetime()` otherwise.
    Datetime utcDatetime() const;

                                  // Aspects

    /// Write the value of this object, using the specified `version`
    /// format, to the specified output `stream`, and return a reference to
    /// `stream`.  If `stream` is initially invalid, this operation has no
    /// effect.  If `version` is not supported, `stream` is invalidated, but
    /// otherwise unmodified.  Note that `version` is not written to
    /// `stream`.  See the `bslx` package-level documentation for more
    /// information on BDEX streaming of value-semantic types and
    /// containers.
    template <class STREAM>
    STREAM& bdexStreamOut(STREAM& stream, int version) const;

    /// Write the value of this object to the specified output `stream` in a
    /// human-readable format, and return a reference to `stream`.
    /// Optionally specify an initial indentation `level`, whose absolute
    /// value is incremented recursively for nested objects.  If `level` is
    /// specified, optionally specify `spacesPerLevel`, whose absolute value
    /// indicates the number of spaces per indentation level for this and
    /// all of its nested objects.  If `level` is negative, suppress
    /// indentation of the first line.  If `spacesPerLevel` is negative,
    /// format the entire output on one line, suppressing all but the
    /// initial indentation (as governed by `level`).  If `stream` is not
    /// valid on entry, this operation has no effect.  Note that the format
    /// is not fully specified, and can change without notice.
    bsl::ostream& print(bsl::ostream& stream,
                        int           level = 0,
                        int           spacesPerLevel = 4) const;

#ifndef BDE_OPENSOURCE_PUBLICATION  // pending deprecation

    // DEPRECATED METHODS

    /// Return a `Datetime` object having the value of the UTC datetime
    /// represented by this object.  Note that if `0 != offset()`, the
    /// returned value is equal to `localDatetime()` minus `offset()`
    /// minutes, and `localDatetime()` otherwise.
    ///
    /// @DEPRECATED: replaced by `utcDatetime.`
    Datetime gmtDatetime() const;

    /// Return the most current BDEX streaming version number supported by
    /// this class.
    ///
    /// @DEPRECATED: Use `maxSupportedBdexVersion(int)` instead.
    static int maxSupportedBdexVersion();

    /// If the specified `localDatetime` and `offset` represent a valid
    /// `DatetimeTz` value (see `isValid`), set the local datetime and the
    /// time zone offset of this object to the `localDatetime` and `offset`
    /// values respectively and return 0, leave this object unmodified and
    /// return a non-zero value otherwise.
    ///
    /// @DEPRECATED: replaced by `setDatetimeTzIfValid`.
    int validateAndSetDatetimeTz(const Datetime& localDatetime, int offset);

#endif // BDE_OPENSOURCE_PUBLICATION -- pending deprecation

};

// FREE OPERATORS

/// Return `true` if the specified `lhs` and `rhs` `DatetimeTz` objects have
/// the same value, and `false` otherwise.  Two `DatetimeTz` objects have
/// the same value if they have the same local datetime value and the same
/// time zone offset value.
bool operator==(const DatetimeTz& lhs, const DatetimeTz& rhs);

/// Return `true` if the specified `lhs` and `rhs` `DatetimeTz` objects do
/// not have the same value, and `false` otherwise.  Two `DatetimeTz`
/// objects do not have the same value if they do not have the same local
/// datetime value or the same time zone offset value.
bool operator!=(const DatetimeTz& lhs, const DatetimeTz& rhs);

/// Write the value of the specified `rhs` object to the specified output
/// `stream` in a single-line format, and return a reference providing
/// modifiable access to `stream`.  If `stream` is not valid on entry, this
/// operation has no effect.  Note that this human-readable format is not
/// fully specified and can change without notice.  Also note that this
/// method has the same behavior as `object.print(stream, 0, -1)`, but with
/// the attribute names elided.
bsl::ostream& operator<<(bsl::ostream& stream, const DatetimeTz& rhs);

// FREE FUNCTIONS

/// Pass the specified `object` to the specified `hashAlg`.  This function
/// integrates with the `bslh` modular hashing system and effectively
/// provides a `bsl::hash` specialization for `DatetimeTz`.  Note that two
/// objects which represent the same UTC time but have different offsets
/// will not (necessarily) hash to the same value.
template <class HASHALG>
void hashAppend(HASHALG& hashAlg, const DatetimeTz& object);

// ============================================================================
//                             INLINE DEFINITIONS
// ============================================================================

                             // ----------------
                             // class DatetimeTz
                             // ----------------

// CLASS METHODS
inline
bool DatetimeTz::isValid(const Datetime& localDatetime, int offset)
{
    return k_MIN_OFFSET < offset
        && k_MAX_OFFSET > offset
        && (bdlt::Time() != localDatetime.time() || 0 == offset);
}

                                  // Aspects

inline
int DatetimeTz::maxSupportedBdexVersion(int versionSelector)
{
    if (versionSelector >= 20170401) {
        return 2;                                                     // RETURN
    }
    return 1;
}

// CREATORS
inline
DatetimeTz::DatetimeTz()
: d_localDatetime()
, d_offset(0)
{
}

inline
DatetimeTz::DatetimeTz(const Datetime& localDatetime, int offset)
: d_localDatetime(localDatetime)
, d_offset(offset)
{
    BSLS_ASSERT_SAFE(isValid(localDatetime, offset));
}

inline
DatetimeTz::DatetimeTz(const DatetimeTz& original)
: d_localDatetime(original.d_localDatetime)
, d_offset(original.d_offset)
{
}

inline
DatetimeTz::~DatetimeTz()
{
    BSLS_ASSERT_SAFE(isValid(d_localDatetime, d_offset));
}

// MANIPULATORS
inline
DatetimeTz& DatetimeTz::operator=(const DatetimeTz& rhs)
{
    d_localDatetime = rhs.d_localDatetime;
    d_offset        = rhs.d_offset;

    return *this;
}

inline
void DatetimeTz::setDatetimeTz(const Datetime& localDatetime, int offset)
{
    BSLS_ASSERT_SAFE(isValid(localDatetime, offset));

    d_localDatetime = localDatetime;
    d_offset        = offset;
}

inline
int DatetimeTz::setDatetimeTzIfValid(const Datetime& localDatetime, int offset)
{
    if (isValid(localDatetime, offset)) {
        setDatetimeTz(localDatetime, offset);
        return 0;                                                     // RETURN
    }
    return -1;
}

                                  // Aspects

template <class STREAM>
STREAM& DatetimeTz::bdexStreamIn(STREAM& stream, int version)
{
    if (stream) {
        switch (version) { // switch on the schema version
          case 2:
            BSLS_ANNOTATION_FALLTHROUGH;
          case 1: {
            Datetime localDatetime;
            localDatetime.bdexStreamIn(stream, version);

            // Note that we have to initialize 'offset' to a value in order to
            // silence potential -Wmaybe-uninitialized.

            int offset = 0;
            stream.getInt32(offset);

            if (stream && isValid(localDatetime, offset)) {
                d_localDatetime = localDatetime;
                d_offset        = offset;
            }
            else {
                stream.invalidate();
            }
          } break;
          default: {
            stream.invalidate();  // unrecognized version number
          }
        }
    }
    return stream;
}

// ACCESSORS
inline
DateTz DatetimeTz::dateTz() const
{
    return DateTz(d_localDatetime.date(), d_offset);
}

inline
Datetime DatetimeTz::localDatetime() const
{
    return d_localDatetime;
}

inline
int DatetimeTz::offset() const
{
    return d_offset;
}

inline
TimeTz DatetimeTz::timeTz() const
{
    return TimeTz(d_localDatetime.time(), d_offset);
}

inline
Datetime DatetimeTz::utcDatetime() const
{
    Datetime utc(d_localDatetime);
    if (d_offset) {
        utc.addMinutes(-d_offset);
    }
    return utc;
}

                                  // Aspects

template <class STREAM>
STREAM& DatetimeTz::bdexStreamOut(STREAM& stream, int version) const
{
    if (stream) {
        switch (version) { // switch on the schema version
          case 2:
            BSLS_ANNOTATION_FALLTHROUGH;
          case 1: {
            d_localDatetime.bdexStreamOut(stream, version);
            stream.putInt32(d_offset);
          } break;
          default: {
            stream.invalidate();  // unrecognized version number
          }
        }
    }
    return stream;
}

#ifndef BDE_OPENSOURCE_PUBLICATION  // pending deprecation

// DEPRECATED METHODS
inline
Datetime DatetimeTz::gmtDatetime() const
{
    return utcDatetime();
}

inline
int DatetimeTz::maxSupportedBdexVersion()
{
    return maxSupportedBdexVersion(0);
}

inline
int DatetimeTz::validateAndSetDatetimeTz(const Datetime& localDatetime,
                                         int             offset)
{
    return setDatetimeTzIfValid(localDatetime, offset);
}

#endif // BDE_OPENSOURCE_PUBLICATION -- pending deprecation

}  // close package namespace

// FREE OPERATORS
inline
bool bdlt::operator==(const DatetimeTz& lhs, const DatetimeTz& rhs)
{
    return lhs.localDatetime() == rhs.localDatetime()
        && lhs.offset()        == rhs.offset();
}

inline
bool bdlt::operator!=(const DatetimeTz& lhs, const DatetimeTz& rhs)
{
    return !(lhs == rhs);
}

inline
bsl::ostream& bdlt::operator<<(bsl::ostream& stream, const DatetimeTz& rhs)
{
    return rhs.print(stream, 0, -1);
}

// FREE FUNCTIONS
template <class HASHALG>
inline
void bdlt::hashAppend(HASHALG& hashAlg, const DatetimeTz& object)
{
    using ::BloombergLP::bslh::hashAppend;
    hashAppend(hashAlg, object.localDatetime());
    hashAppend(hashAlg, object.offset());
}

namespace bslmf {

// TRAITS

/// This template specialization for `IsBitwiseCopyable` indicates that
/// `bdlt::DatetimeTz` is a bitwise copyable type.
template <>
struct IsBitwiseCopyable<BloombergLP::bdlt::DatetimeTz> : bsl::true_type {
};

}  // close namespace bslmf
}  // close enterprise namespace

#endif

// ----------------------------------------------------------------------------
// Copyright 2016 Bloomberg Finance L.P.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
//     http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
// ----------------------------- END-OF-FILE ----------------------------------
